Communication and homeostasis Flashcards
Explain why multicellular organisms need a communication system.
- Cells within organisms have become specialised to perform specific functions
- Organisms need to coordinate the function of different cells and systems to operate effectively and respond to changes
- Few body systems can work alone
List the factors that need keeping constant inside cells.
- Blood-glucose concentration
- Internal temperature
- Water potential
- Cell pH
Explain why it is important to keep conditions inside cells relatively constant.
- Vital for cells to function normally and to stop them being damaged
- e.g. Enzymes denatured
- Glucose in blood needs to be controlled so there is always enough for respiration
Explain why the conditions critical to an organism change (use 4 examples from the internal environment and 4 examples from the external environment).
- External- humidity, external temperature, light, new or sudden sound
- Internal- Blood-glucose conc, internal temperature, water potential, cell pH
Conditions change - Substances used up in metabolic reactions
- Waste products are constantly being produced
- Metabolisms change to meet changing demands of the organism
- Intake varies overtime
- Environmental conditions change
Name the process by which cells communicate with each other.
Cell signalling
Define cell signalling
- A complex system of intercellular communication
2. Where one cell releases a chemical which has an affect on another cell
Give two examples of systems whose purpose is cell signalling.
- Nervous system
2. Endocrine system
Outline the process of cell signalling in these two systems.
- Nervous- transfer signals locally for example between neurones at synapses. Signal used is a neurotransmitter.
- Endocrine- Transfer signals over large distances, using hormones. For example, the cells of the pituitary gland secrete ADH which acts on kidney
Compare the neuronal and hormonal systems of cell signalling.
Hormonal system
1. Communication is by chemicals called hormones
2. Transmission is by the blood system
3. Transmission is usually relatively slow
4. Hormones travel to all parts of the body, but only target organs respond
5. Response is widespread
6. Response is slow
7. Response is often long-lasting
8. Effect may be permanent and irreversible
Nervous system
1. Communication is by nervous impulses
2. Transmission is by neurones
3. Transmission is very rapid
4. Nerve impulses travel to specific parts of the body
5. Response is localised
6. Response is rapid
7. Response is short-lived
8. Effect is temporary and reversible.
Define the term negative feedback
- When a change away from the ideal triggers a reaction to bring the conditions to ideal
- The mechanism by which homeostasis is achieved
Define homeostasis
The maintenance of a stable equilibrium in the conditions inside the body
Define positive feedback
- A change in the internal environment of the body is detected by sensory receptors and effectors are stimulated to reinforce the change and increase the response
List 4 factors that need to be kept constant (within a narrow range) in animals.
- pH of blood
- Core temperature
- Concentration of urea in blood
- Concentration of sodium ions in blood
Draw a flow chart to outline the processes (and components) involved in negative feedback.
- Change away from the optimum/norm is detected by receptors
- Signals are sent to effectors sometimes via a control centre
- Effectors initiate a response
- Conditions return to optimum/ norm
Define the term effector
Muscle or gland which carries out body’s response to a stimulus
Define receptor
- Extrinsic glycoproteins that bind chemical signals, triggering a response by the cell
- Detect changes in the internal and external environment of an organism
Explain what is meant by “constant” in terms of homeostasis.
Maintaining a relatively steady state around a narrow range of conditions
Define endotherm
Animals that rely on their metabolic processes to warm their bodies and maintain their core temperature
Define ectotherm
Animals that use their surroundings to warm their bodies so their core temperature is heavily dependent on the environment.
Define thermoregulation
The maintenance of a relatively constant core temperature
Define the term core body temperature
Core body temperature refers to the temperature of the internal environment of the body.
Explain why “warm-blooded” and “cold-blooded” are inappropriate terms for endotherms and ectotherms.
Because all blood is warm- blood is never cold
Explain why temperature needs to be maintained within a narrow range with cells.
- Because enzymes controlling chemical reactions needed for life are very temperature sensitive.
- If temperature gets to high they will dentaure
Describe and explain 4 ways that heat is transferred between an organism and their environment.
- Exothermic chemical reactions
- Latent heat of evaporation- objects cool down as water evaporates from a surface.
- Radiation- the transmission of electromagnetic waves to and form the air, water or ground
- Convection- the heating and cooling by currents of air or water
- Conduction- heating as a result of the collision of molecules.
Describe how an organism generates heat internally.
- From metabolic processes
2. Metabolic rate of endotherms is much higher than ectotherms
Define the term “exothermic reaction”.
- Reactions that release energy
Describe the advantages and disadvantages of being an ectotherm.
Disadvantages
- Core body temperature is heavily dependent on their environment
- Temperature of air can vary dramatically both between seasons and over a 24 hour period- problem for land ectotherms
- Activity levels are severely reduced when it is cold
- Restricted to tropical or temperate regions on land but can be found throughout all oceans
Advantages
- Many ectotherms living in water don’t need to thermoregulate because the high specific heat capacity of water means the temperature of water does not change much
- Need less energy for metabolism- lower metabolic demands
- Less food is needed
- More of the food eaten can be used for growth
Outline how an ectotherm regulates its internal temperature using behavioural responses
Behavioural responses
- Bask in the sun- orientate their bodies so that the maximum surface area is exposed to the sun - warm
- Some extend areas of their body to increase the surface area exposed to the sun- warm
- Increase temperature through conduction by pressing their bodies against the warm ground- warm
- Exothermic reaction- contracting muscles and vibrating wings- warm
- To cool down they may shelter from the sun by seeking shade, hiding in rocks or caves or digging burrows.- cool
- Press bodies against cool, shady earth or stones or move into available water or mud-cool
- Orientate bodies their bodies so that the minimum surface area is expose to the sun- cool
- Minimise movements to reduce metabolic heat generated- cool
Outline how an ectotherm regulates its internal temperature using physiological responses
- Dark colours absorb more radiation than light colours, lizards in cold climates tend to be darker coloured than lizards in warmer climates- warm
- Some alter their heart rate to increase or decrease metabolic rate
List 4 different types of organism that are ectotherms.
All invertebrate animals along with fish, amphibians, and reptiles
Describe the advantages and disadvantages of being an endotherm.
Advantages
1. Can inhabit a wide range of habitats including places that get very cold
2. Can maintain a fairly constant body temperature regardless of external conditions
3. Can maintain high activity levels even at night and winter
Disadvantages
1. High food requirements
2. More energy needed for metabolism
3. More of the food is used to maintain body temperature and so less is available for growth
Outline how an endotherm regulates its internal temperature.
1.